The effect of metals on zeolite crystallization kinetics with relevance to nuclear waste glass corrosion

The effect of metals on zeolite crystallization kinetics with relevance to nuclear waste glass corrosion

Geologic disposal of vitrified radioactive material is planned in several countries, but there are remaining uncertainties related to the long-term stability of glass exposed to groundwater. Specifically, the crystallization of aluminosilicate zeolite minerals can accelerate the rate at which glass...

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Veröffentlicht in:Npj Materials degradation 2023-01, Vol.7 (1), p.4-7, Article 4
Hauptverfasser: Mallette, Adam J., Reiser, Joelle T., Mpourmpakis, Giannis, Motkuri, Radha Kishan, Neeway, James J., Rimer, Jeffrey D.
Format: Artikel
Sprache:eng
Schlagworte:
639/638/263
639/638/298
Aluminosilicates
Aluminum silicates
Biosphere
Chemistry and Materials Science
Corrosion
Corrosion and Coatings
Crystallization
Electrochemistry
Groundwater
Lithium
Materials Science
Metals
Nucleation
Radioactive materials
Radioactive wastes
Seeds
Structural Materials
Tribology
Zeolites
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Zusammenfassung:Geologic disposal of vitrified radioactive material is planned in several countries, but there are remaining uncertainties related to the long-term stability of glass exposed to groundwater. Specifically, the crystallization of aluminosilicate zeolite minerals can accelerate the rate at which glass corrodes and radioactive material is released into the biosphere. In this study, we identify elemental species that may accelerate or suppress zeolite formation using a protocol to examine their effects on zeolite synthesis over a three-day duration. Our results are consistent with previous works demonstrating glass corrosion acceleration in the presence of calcium. Furthermore, we identify two elements—tin and lithium—as inhibitors of zeolite P2 (gismondine, or GIS type) nucleation and, thus, promising components for promoting the long-term durability of glass waste forms.
ISSN:2397-2106
2397-2106
DOI:10.1038/s41529-022-00310-9